Add to ORKGAnodes derived from oxides of tin have, of late, been of considerable interest because, in principle, they can store over twice as much lithium as graphite. A nanometric matrix of Li2O generated in situ by the electrochemical reduction of SnO2 can provide a facile environment for the reversible alloying of lithium with tin to a maximum stoichiometry of Li4.4Sn. However, the generation of the matrix leads to a high first-cycle irreversible capacity. With a view to increasing the reversible capacity as well as to reduce the irreversible capacity and capacity fade upon cycling, tin–tin oxide mixtures were investigated. SnO2, synthesized by a chemical precipitation method, was mixed with tin powder at two compositions, viz., 1:2 and 2:1, b...
Tin-based materials with high specific capacity have been studied as high-performance anodes for Li-...
Anode properties of mesoporous (m-) SnO2-based materials for secondary lithium-ion batteries have be...
The development of new electrode materials for lithium-ion batteries (LIBs) has always been a focal ...
Tin-based materials, especially tin oxide, have been widely investigated as potential graphite subst...
SnO2-based lithium-ion batteries have low cost and high energy density, but their capacity fades rap...
International audienceTin and tin oxide materials have been considered as the promising new material...
Mixed tin oxides, M<SUB>2</SUB>Sn<SUB>2</SUB>O<SUB>7</SUB> (M = Y, Nd), with cubic pyrochlore struct...
International audienceElectrochemical and physicochemical characteristics of three tin-based materia...
In search of higher capacity anodes for secondary Li-ion cells, it has been observed that active wit...
This thesis aims to provide insight into the fundamental electrochemical processes taking place when...
SnO 2-carbon nanotube composites were prepared by chemical treatment of tin chloride salt mixed with...
Low-cost and simple methods are constantly chased in order to produce less expensive lithium-ion bat...
The demand of improvement in lithium-ion battery technology in terms of specific capacity and safety...
Tin‐based materials are an emerging class of Li‐ion anodes with considerable potential for use in hi...
Low cost group IV element (Sn) based-materials can provide high capacity substitute for lithium-ion ...
Tin-based materials with high specific capacity have been studied as high-performance anodes for Li-...
Anode properties of mesoporous (m-) SnO2-based materials for secondary lithium-ion batteries have be...
The development of new electrode materials for lithium-ion batteries (LIBs) has always been a focal ...
Tin-based materials, especially tin oxide, have been widely investigated as potential graphite subst...
SnO2-based lithium-ion batteries have low cost and high energy density, but their capacity fades rap...
International audienceTin and tin oxide materials have been considered as the promising new material...
Mixed tin oxides, M<SUB>2</SUB>Sn<SUB>2</SUB>O<SUB>7</SUB> (M = Y, Nd), with cubic pyrochlore struct...
International audienceElectrochemical and physicochemical characteristics of three tin-based materia...
In search of higher capacity anodes for secondary Li-ion cells, it has been observed that active wit...
This thesis aims to provide insight into the fundamental electrochemical processes taking place when...
SnO 2-carbon nanotube composites were prepared by chemical treatment of tin chloride salt mixed with...
Low-cost and simple methods are constantly chased in order to produce less expensive lithium-ion bat...
The demand of improvement in lithium-ion battery technology in terms of specific capacity and safety...
Tin‐based materials are an emerging class of Li‐ion anodes with considerable potential for use in hi...
Low cost group IV element (Sn) based-materials can provide high capacity substitute for lithium-ion ...
Tin-based materials with high specific capacity have been studied as high-performance anodes for Li-...
Anode properties of mesoporous (m-) SnO2-based materials for secondary lithium-ion batteries have be...
The development of new electrode materials for lithium-ion batteries (LIBs) has always been a focal ...